Lotus tenuis seedling establishment and biomass production in Flooding Pa mpa grasslands (Buenos Aires, Argentina)

Biomass and plant density of Lotus tenuis Waldst. & Kit. ex Willd. have been reported in decreasing in grasslands and pastures. Our objective was to determine if L. tenuis biomass and plant density can be increased in grassland through seed addition. Two separated experiments under cattle grazin...

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Published in:Chilean journal of agricultural research 2011-01, Vol.71 (1), p.96
Main Authors: Vignolio, Osvaldo R, Fernández, Osvaldo N
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Language:eng ; spa
Subjects:
Biomass
Cattle
Experiments
Grasslands
Herbivores
Legumes
Pastures
Precipitation
Productivity
Seeds
Studies
Summer
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description Biomass and plant density of Lotus tenuis Waldst. & Kit. ex Willd. have been reported in decreasing in grasslands and pastures. Our objective was to determine if L. tenuis biomass and plant density can be increased in grassland through seed addition. Two separated experiments under cattle grazing exclusion were conducted in three paddocks of a Flooding Pampa grassland. The first experiment was from autumn 2004 to autumn 2006 and the second from autumn 2005 to autumn 2007. Different L. tenuis seed additions (0, 57, 229, 917 and 1833 seeds m^sup -2^) were broadcast into experimental plots. In the second experiment, besides seed additions there was a reseeding of approximately 900 seed m^sup -2^ from seed rain produced by plants of grassland. Seed density explained the 81% and 19% of the variation in seedling density and L. tenuis biomass, respectively. Seedling emergence occurred mainly between autumn and early spring, while seedling mortality was mainly between late spring and early summer. Lotus tenuis adult plant density and biomass production increased with seed additions. Total biomass production in the plant community varied between 589.94 ± 26.89 and 1042.44 ± 54.39 g m^sup -2^ yr^sup -1^ and the differences were principally attributed to precipitations. Lotus tenuis biomass contribution was of approximately 10%. The results suggest that L. tenuis seedling and plant establishment and biomass production can be increased through seed addition and/or seed rain through grazing exclusion during reproductive period. In the first period seed addition explained the 81% and 19% of the variation in seedling density and L. tenuis biomass, respectively. Lotus tenuis response to seed addition could have been conditioned by its grazing history and climate variables, for example, precipitations. Under continuous grazing the removal of reproductive and vegetative organs of L. tenuis can negatively affect the seed production and consequently the soil seed bank size ([Bologna] et al., 1996; [Sternberg] et al., 2003; [Osvaldo N. Fern]ández et al., 2008). Lotus tenuis soil seed bank recorded in the same grassland, near of the paddocks, was estimated in approximately 50 seed m-2 (Fernández et al., 2008). Therefore, the increment of L. tenuis seedling with the seed additions could be in response to the low soil seed bank. In the second experiment, L. tenuis seed rain produced during the period 30 December 2004 to 31 March 2005 increased the soil seed bank and determining l
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Our objective was to determine if L. tenuis biomass and plant density can be increased in grassland through seed addition. Two separated experiments under cattle grazing exclusion were conducted in three paddocks of a Flooding Pampa grassland. The first experiment was from autumn 2004 to autumn 2006 and the second from autumn 2005 to autumn 2007. Different L. tenuis seed additions (0, 57, 229, 917 and 1833 seeds m^sup -2^) were broadcast into experimental plots. In the second experiment, besides seed additions there was a reseeding of approximately 900 seed m^sup -2^ from seed rain produced by plants of grassland. Seed density explained the 81% and 19% of the variation in seedling density and L. tenuis biomass, respectively. Seedling emergence occurred mainly between autumn and early spring, while seedling mortality was mainly between late spring and early summer. Lotus tenuis adult plant density and biomass production increased with seed additions. Total biomass production in the plant community varied between 589.94 ± 26.89 and 1042.44 ± 54.39 g m^sup -2^ yr^sup -1^ and the differences were principally attributed to precipitations. Lotus tenuis biomass contribution was of approximately 10%. The results suggest that L. tenuis seedling and plant establishment and biomass production can be increased through seed addition and/or seed rain through grazing exclusion during reproductive period. In the first period seed addition explained the 81% and 19% of the variation in seedling density and L. tenuis biomass, respectively. Lotus tenuis response to seed addition could have been conditioned by its grazing history and climate variables, for example, precipitations. Under continuous grazing the removal of reproductive and vegetative organs of L. tenuis can negatively affect the seed production and consequently the soil seed bank size ([Bologna] et al., 1996; [Sternberg] et al., 2003; [Osvaldo N. Fern]ández et al., 2008). Lotus tenuis soil seed bank recorded in the same grassland, near of the paddocks, was estimated in approximately 50 seed m-2 (Fernández et al., 2008). Therefore, the increment of L. tenuis seedling with the seed additions could be in response to the low soil seed bank. In the second experiment, L. tenuis seed rain produced during the period 30 December 2004 to 31 March 2005 increased the soil seed bank and determining little differences in seedling density between control and 2nd and 3rd seed addition. Lotus tenuis seedling started to die offas soon as plant communities began to regrow. Lotus tenuis seeds are small (approximately 1 mg) and the seedling with poor vigour. Seedling recruitment and survival are dependent on open gaps or low plant competition ([Colabelli] and Miñón, 1993; Miñón and Colabelli, 1993; [Sevilla] et al., 1996; Laterra, 1997; [Juan] et al., 2000). Low seedling density in early summer reflects the high mortality risks in this season. Water availability during summer in the Flooding Pampa grasslands, appears to be an important environmental factor controlling L. tenuis plant survival and biomass production (Colabelli and Miñón, 1993; [Vignolio] et al., 2010). Oesterheld and León (1987) did not find differences in biomass production in pastures of 2, 5 and 13 yr old growing in the Flooding Pampa. The hypothesis proposed by these authors and others (Costa and García, 1997; Fernández Grecco, 2001) was that soil fertility and water would be the decisive factors determining the biomass production of the grasslands. This appreciation agrees with the results of [Wilsey, B.J.] and [Polley] (2003) who added seeds of 20 species -perennial C4 and C3 grasses, legumes and forbs- in subhumid grassland of Texas, USA. In hot and dried summers, water availability was an important factor controlling seedling establishment and biomass production (Wilsey and Polley, 2003). Flooding Pampa grasslands, can remain exposed to temporary summer drought and available water can be an abiotic key element to the survival and biomass production of these grasslands (Wilsey and Polley, 2003; [Lenz] and Facelli, 2005; [Thomsen] et al., 2006). The lower biomass production of the plant community (average of the three paddocks) in the second experiment (762 g m-2 yr-1) respect to the first one (910 g m-2 yr-1) can be attributed to the scarce precipitations during November and December 2006. Total biomass produced by plant community was not significantly increased through L. tenuis seed additions and seed rain. However, L. tenuis biomass contribution is important in the Flooding Pampa grasslands rich in grass species, poor in native legume and in soil N (Colabelli and [Viviani Rossi], 1997; Costa and García, 1997; Fernández Grecco, 2001). Establecimiento de plántulas y producción de biomasa de Lotus tenuis en pastizales de la Pampa Deprimida (Buenos Aires, Argentina). En pastizales y pasturas ha sido documentada la reducción de la densidad de plantas y de la biomasa de Lotus tenuis Waldst. &amp; Kit. ex Willd. Nuestro objetivo fue determinar si su densidad de plantas y su producción de biomasa pueden ser incrementadas en un pastizal mediante la adición de semillas. Dos experimentos sin pastoreo fueron realizados en tres potreros de un pastizal de la Pampa Deprimida. El primer experimento fue realizado entre otoño 2004-otoño 2006 y el segundo entre otoño 2005-otoño 2007. Diferentes cantidades de semillas (0, 57, 229, 917 y 1833 semillas m-2) fueron esparcidas a mano en las parcelas experimentales. En el segundo experimento, además de la adición de semillas, también se produjo la siembra de aproximadamente 900 semillas m-2, por los aportes de las plantas de L. tenuis del pastizal. La densidad de semillas explicó el 81% y el 19% de la variación de la densidad de plántulas y la producción de biomasa de L. tenuis, respectivamente. La emergencia de plántulas fue principalmente entre otoño-principios de primavera y la mortalidad entre primavera tardía-verano. La densidad de plantas adultas y la biomasa producida por L. tenuis se incrementaron con la adición de semillas. La biomasa total del pastizal varió entre 589,94 ± 26,89 y 1042,44 ± 54,39 g m-2 año-1 y las diferencias fueron atribuidas principalmente a las precipitaciones. La contribución de L. tenuis fue del 10%. Los resultados sugieren que el establecimiento de plántulas, de plantas y la producción de biomasa de L. tenuis pueden aumentar en el pastizal por la adición de semillas y/o por la lluvia de semillas mediante la exclusión del pastoreo durante el período reproductivo.</description><identifier>ISSN: 0718-5820</identifier><identifier>EISSN: 0718-5839</identifier><language>eng ; spa</language><publisher>Chillán: Chilean Journal of Agricultural Research</publisher><subject>Biomass ; Cattle ; Experiments ; Grasslands ; Herbivores ; Legumes ; Pastures ; Precipitation ; Productivity ; Seeds ; Studies ; Summer</subject><ispartof>Chilean journal of agricultural research, 2011-01, Vol.71 (1), p.96</ispartof><rights>Copyright Chilean Journal of Agricultural Research Jan-Mar 2011</rights><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktopdf>$$Uhttps://www.proquest.com/docview/1267733414/fulltextPDF?pq-origsite=primo$$EPDF$$P50$$Gproquest$$Hfree_for_read</linktopdf><linktohtml>$$Uhttps://www.proquest.com/docview/1267733414?pq-origsite=primo$$EHTML$$P50$$Gproquest$$Hfree_for_read</linktohtml><link.rule.ids>314,780,784,25753,37012,44590,75126</link.rule.ids></links><search><creatorcontrib>Vignolio, Osvaldo R</creatorcontrib><creatorcontrib>Fernández, Osvaldo N</creatorcontrib><title>Lotus tenuis seedling establishment and biomass production in Flooding Pa mpa grasslands (Buenos Aires, Argentina)</title><title>Chilean journal of agricultural research</title><description>Biomass and plant density of Lotus tenuis Waldst. &amp; Kit. ex Willd. have been reported in decreasing in grasslands and pastures. Our objective was to determine if L. tenuis biomass and plant density can be increased in grassland through seed addition. Two separated experiments under cattle grazing exclusion were conducted in three paddocks of a Flooding Pampa grassland. The first experiment was from autumn 2004 to autumn 2006 and the second from autumn 2005 to autumn 2007. Different L. tenuis seed additions (0, 57, 229, 917 and 1833 seeds m^sup -2^) were broadcast into experimental plots. In the second experiment, besides seed additions there was a reseeding of approximately 900 seed m^sup -2^ from seed rain produced by plants of grassland. Seed density explained the 81% and 19% of the variation in seedling density and L. tenuis biomass, respectively. Seedling emergence occurred mainly between autumn and early spring, while seedling mortality was mainly between late spring and early summer. Lotus tenuis adult plant density and biomass production increased with seed additions. Total biomass production in the plant community varied between 589.94 ± 26.89 and 1042.44 ± 54.39 g m^sup -2^ yr^sup -1^ and the differences were principally attributed to precipitations. Lotus tenuis biomass contribution was of approximately 10%. The results suggest that L. tenuis seedling and plant establishment and biomass production can be increased through seed addition and/or seed rain through grazing exclusion during reproductive period. In the first period seed addition explained the 81% and 19% of the variation in seedling density and L. tenuis biomass, respectively. Lotus tenuis response to seed addition could have been conditioned by its grazing history and climate variables, for example, precipitations. Under continuous grazing the removal of reproductive and vegetative organs of L. tenuis can negatively affect the seed production and consequently the soil seed bank size ([Bologna] et al., 1996; [Sternberg] et al., 2003; [Osvaldo N. Fern]ández et al., 2008). Lotus tenuis soil seed bank recorded in the same grassland, near of the paddocks, was estimated in approximately 50 seed m-2 (Fernández et al., 2008). Therefore, the increment of L. tenuis seedling with the seed additions could be in response to the low soil seed bank. In the second experiment, L. tenuis seed rain produced during the period 30 December 2004 to 31 March 2005 increased the soil seed bank and determining little differences in seedling density between control and 2nd and 3rd seed addition. Lotus tenuis seedling started to die offas soon as plant communities began to regrow. Lotus tenuis seeds are small (approximately 1 mg) and the seedling with poor vigour. Seedling recruitment and survival are dependent on open gaps or low plant competition ([Colabelli] and Miñón, 1993; Miñón and Colabelli, 1993; [Sevilla] et al., 1996; Laterra, 1997; [Juan] et al., 2000). Low seedling density in early summer reflects the high mortality risks in this season. Water availability during summer in the Flooding Pampa grasslands, appears to be an important environmental factor controlling L. tenuis plant survival and biomass production (Colabelli and Miñón, 1993; [Vignolio] et al., 2010). Oesterheld and León (1987) did not find differences in biomass production in pastures of 2, 5 and 13 yr old growing in the Flooding Pampa. The hypothesis proposed by these authors and others (Costa and García, 1997; Fernández Grecco, 2001) was that soil fertility and water would be the decisive factors determining the biomass production of the grasslands. This appreciation agrees with the results of [Wilsey, B.J.] and [Polley] (2003) who added seeds of 20 species -perennial C4 and C3 grasses, legumes and forbs- in subhumid grassland of Texas, USA. In hot and dried summers, water availability was an important factor controlling seedling establishment and biomass production (Wilsey and Polley, 2003). Flooding Pampa grasslands, can remain exposed to temporary summer drought and available water can be an abiotic key element to the survival and biomass production of these grasslands (Wilsey and Polley, 2003; [Lenz] and Facelli, 2005; [Thomsen] et al., 2006). The lower biomass production of the plant community (average of the three paddocks) in the second experiment (762 g m-2 yr-1) respect to the first one (910 g m-2 yr-1) can be attributed to the scarce precipitations during November and December 2006. Total biomass produced by plant community was not significantly increased through L. tenuis seed additions and seed rain. However, L. tenuis biomass contribution is important in the Flooding Pampa grasslands rich in grass species, poor in native legume and in soil N (Colabelli and [Viviani Rossi], 1997; Costa and García, 1997; Fernández Grecco, 2001). Establecimiento de plántulas y producción de biomasa de Lotus tenuis en pastizales de la Pampa Deprimida (Buenos Aires, Argentina). En pastizales y pasturas ha sido documentada la reducción de la densidad de plantas y de la biomasa de Lotus tenuis Waldst. &amp; Kit. ex Willd. Nuestro objetivo fue determinar si su densidad de plantas y su producción de biomasa pueden ser incrementadas en un pastizal mediante la adición de semillas. Dos experimentos sin pastoreo fueron realizados en tres potreros de un pastizal de la Pampa Deprimida. El primer experimento fue realizado entre otoño 2004-otoño 2006 y el segundo entre otoño 2005-otoño 2007. Diferentes cantidades de semillas (0, 57, 229, 917 y 1833 semillas m-2) fueron esparcidas a mano en las parcelas experimentales. En el segundo experimento, además de la adición de semillas, también se produjo la siembra de aproximadamente 900 semillas m-2, por los aportes de las plantas de L. tenuis del pastizal. La densidad de semillas explicó el 81% y el 19% de la variación de la densidad de plántulas y la producción de biomasa de L. tenuis, respectivamente. La emergencia de plántulas fue principalmente entre otoño-principios de primavera y la mortalidad entre primavera tardía-verano. La densidad de plantas adultas y la biomasa producida por L. tenuis se incrementaron con la adición de semillas. La biomasa total del pastizal varió entre 589,94 ± 26,89 y 1042,44 ± 54,39 g m-2 año-1 y las diferencias fueron atribuidas principalmente a las precipitaciones. La contribución de L. tenuis fue del 10%. Los resultados sugieren que el establecimiento de plántulas, de plantas y la producción de biomasa de L. tenuis pueden aumentar en el pastizal por la adición de semillas y/o por la lluvia de semillas mediante la exclusión del pastoreo durante el período reproductivo.</description><subject>Biomass</subject><subject>Cattle</subject><subject>Experiments</subject><subject>Grasslands</subject><subject>Herbivores</subject><subject>Legumes</subject><subject>Pastures</subject><subject>Precipitation</subject><subject>Productivity</subject><subject>Seeds</subject><subject>Studies</subject><subject>Summer</subject><issn>0718-5820</issn><issn>0718-5839</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2011</creationdate><recordtype>article</recordtype><sourceid>PIMPY</sourceid><recordid>eNqNjT8LwjAUxIMoWP98hwcuChZSU20dVRQHBwd3iTbWSPqiecn3N4I4O93B_e6uxRJeZGU6L8Wy_fMz3mU9ogfni7zIRMLcwfpA4BUGTUBKVUZjDYq8vBhN90ahB4kVXLRtJBE8na3C1WuLoBF2xtrqUzhKaJ4SahcZE3mC8TootAQr7RRNYeXqOKVRTgasc5OG1PCrfTbabU-bfRqnXyE-nx82OIzROZstikKIPMvFf9Qb471MxQ</recordid><startdate>20110101</startdate><enddate>20110101</enddate><creator>Vignolio, Osvaldo R</creator><creator>Fernández, Osvaldo N</creator><general>Chilean Journal of Agricultural Research</general><scope>3V.</scope><scope>7WY</scope><scope>7X2</scope><scope>7XB</scope><scope>883</scope><scope>8FE</scope><scope>8FH</scope><scope>8FK</scope><scope>8FL</scope><scope>ABUWG</scope><scope>AFKRA</scope><scope>ATCPS</scope><scope>AZQEC</scope><scope>BENPR</scope><scope>BEZIV</scope><scope>BHPHI</scope><scope>CCPQU</scope><scope>CLZPN</scope><scope>DWQXO</scope><scope>FRNLG</scope><scope>HCIFZ</scope><scope>K60</scope><scope>K6~</scope><scope>L.-</scope><scope>M0F</scope><scope>M0K</scope><scope>PIMPY</scope><scope>PQBIZ</scope><scope>PQBZA</scope><scope>PQEST</scope><scope>PQQKQ</scope><scope>PQUKI</scope><scope>Q9U</scope></search><sort><creationdate>20110101</creationdate><title>Lotus tenuis seedling establishment and biomass production in Flooding Pa mpa grasslands (Buenos Aires, Argentina)</title><author>Vignolio, Osvaldo R ; Fernández, Osvaldo N</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-proquest_journals_12677334143</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng ; spa</language><creationdate>2011</creationdate><topic>Biomass</topic><topic>Cattle</topic><topic>Experiments</topic><topic>Grasslands</topic><topic>Herbivores</topic><topic>Legumes</topic><topic>Pastures</topic><topic>Precipitation</topic><topic>Productivity</topic><topic>Seeds</topic><topic>Studies</topic><topic>Summer</topic><toplevel>online_resources</toplevel><creatorcontrib>Vignolio, Osvaldo R</creatorcontrib><creatorcontrib>Fernández, Osvaldo N</creatorcontrib><collection>ProQuest Central (Corporate)</collection><collection>ABI/INFORM Collection</collection><collection>Agricultural Science Collection</collection><collection>ProQuest Central (purchase pre-March 2016)</collection><collection>ABI/INFORM Trade &amp; Industry (Alumni Edition)</collection><collection>ProQuest SciTech Collection</collection><collection>ProQuest Natural Science Collection</collection><collection>ProQuest Central (Alumni) (purchase pre-March 2016)</collection><collection>ABI/INFORM Collection (Alumni Edition)</collection><collection>ProQuest Central (Alumni)</collection><collection>ProQuest Central</collection><collection>Agricultural &amp; 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Kit. ex Willd. have been reported in decreasing in grasslands and pastures. Our objective was to determine if L. tenuis biomass and plant density can be increased in grassland through seed addition. Two separated experiments under cattle grazing exclusion were conducted in three paddocks of a Flooding Pampa grassland. The first experiment was from autumn 2004 to autumn 2006 and the second from autumn 2005 to autumn 2007. Different L. tenuis seed additions (0, 57, 229, 917 and 1833 seeds m^sup -2^) were broadcast into experimental plots. In the second experiment, besides seed additions there was a reseeding of approximately 900 seed m^sup -2^ from seed rain produced by plants of grassland. Seed density explained the 81% and 19% of the variation in seedling density and L. tenuis biomass, respectively. Seedling emergence occurred mainly between autumn and early spring, while seedling mortality was mainly between late spring and early summer. Lotus tenuis adult plant density and biomass production increased with seed additions. Total biomass production in the plant community varied between 589.94 ± 26.89 and 1042.44 ± 54.39 g m^sup -2^ yr^sup -1^ and the differences were principally attributed to precipitations. Lotus tenuis biomass contribution was of approximately 10%. The results suggest that L. tenuis seedling and plant establishment and biomass production can be increased through seed addition and/or seed rain through grazing exclusion during reproductive period. In the first period seed addition explained the 81% and 19% of the variation in seedling density and L. tenuis biomass, respectively. Lotus tenuis response to seed addition could have been conditioned by its grazing history and climate variables, for example, precipitations. Under continuous grazing the removal of reproductive and vegetative organs of L. tenuis can negatively affect the seed production and consequently the soil seed bank size ([Bologna] et al., 1996; [Sternberg] et al., 2003; [Osvaldo N. Fern]ández et al., 2008). Lotus tenuis soil seed bank recorded in the same grassland, near of the paddocks, was estimated in approximately 50 seed m-2 (Fernández et al., 2008). Therefore, the increment of L. tenuis seedling with the seed additions could be in response to the low soil seed bank. In the second experiment, L. tenuis seed rain produced during the period 30 December 2004 to 31 March 2005 increased the soil seed bank and determining little differences in seedling density between control and 2nd and 3rd seed addition. Lotus tenuis seedling started to die offas soon as plant communities began to regrow. Lotus tenuis seeds are small (approximately 1 mg) and the seedling with poor vigour. Seedling recruitment and survival are dependent on open gaps or low plant competition ([Colabelli] and Miñón, 1993; Miñón and Colabelli, 1993; [Sevilla] et al., 1996; Laterra, 1997; [Juan] et al., 2000). Low seedling density in early summer reflects the high mortality risks in this season. Water availability during summer in the Flooding Pampa grasslands, appears to be an important environmental factor controlling L. tenuis plant survival and biomass production (Colabelli and Miñón, 1993; [Vignolio] et al., 2010). Oesterheld and León (1987) did not find differences in biomass production in pastures of 2, 5 and 13 yr old growing in the Flooding Pampa. The hypothesis proposed by these authors and others (Costa and García, 1997; Fernández Grecco, 2001) was that soil fertility and water would be the decisive factors determining the biomass production of the grasslands. This appreciation agrees with the results of [Wilsey, B.J.] and [Polley] (2003) who added seeds of 20 species -perennial C4 and C3 grasses, legumes and forbs- in subhumid grassland of Texas, USA. In hot and dried summers, water availability was an important factor controlling seedling establishment and biomass production (Wilsey and Polley, 2003). Flooding Pampa grasslands, can remain exposed to temporary summer drought and available water can be an abiotic key element to the survival and biomass production of these grasslands (Wilsey and Polley, 2003; [Lenz] and Facelli, 2005; [Thomsen] et al., 2006). The lower biomass production of the plant community (average of the three paddocks) in the second experiment (762 g m-2 yr-1) respect to the first one (910 g m-2 yr-1) can be attributed to the scarce precipitations during November and December 2006. Total biomass produced by plant community was not significantly increased through L. tenuis seed additions and seed rain. However, L. tenuis biomass contribution is important in the Flooding Pampa grasslands rich in grass species, poor in native legume and in soil N (Colabelli and [Viviani Rossi], 1997; Costa and García, 1997; Fernández Grecco, 2001). Establecimiento de plántulas y producción de biomasa de Lotus tenuis en pastizales de la Pampa Deprimida (Buenos Aires, Argentina). En pastizales y pasturas ha sido documentada la reducción de la densidad de plantas y de la biomasa de Lotus tenuis Waldst. &amp; Kit. ex Willd. Nuestro objetivo fue determinar si su densidad de plantas y su producción de biomasa pueden ser incrementadas en un pastizal mediante la adición de semillas. Dos experimentos sin pastoreo fueron realizados en tres potreros de un pastizal de la Pampa Deprimida. El primer experimento fue realizado entre otoño 2004-otoño 2006 y el segundo entre otoño 2005-otoño 2007. Diferentes cantidades de semillas (0, 57, 229, 917 y 1833 semillas m-2) fueron esparcidas a mano en las parcelas experimentales. En el segundo experimento, además de la adición de semillas, también se produjo la siembra de aproximadamente 900 semillas m-2, por los aportes de las plantas de L. tenuis del pastizal. La densidad de semillas explicó el 81% y el 19% de la variación de la densidad de plántulas y la producción de biomasa de L. tenuis, respectivamente. La emergencia de plántulas fue principalmente entre otoño-principios de primavera y la mortalidad entre primavera tardía-verano. La densidad de plantas adultas y la biomasa producida por L. tenuis se incrementaron con la adición de semillas. La biomasa total del pastizal varió entre 589,94 ± 26,89 y 1042,44 ± 54,39 g m-2 año-1 y las diferencias fueron atribuidas principalmente a las precipitaciones. La contribución de L. tenuis fue del 10%. Los resultados sugieren que el establecimiento de plántulas, de plantas y la producción de biomasa de L. tenuis pueden aumentar en el pastizal por la adición de semillas y/o por la lluvia de semillas mediante la exclusión del pastoreo durante el período reproductivo.</abstract><cop>Chillán</cop><pub>Chilean Journal of Agricultural Research</pub><oa>free_for_read</oa></addata></record>
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identifier ISSN: 0718-5820
ispartof Chilean journal of agricultural research, 2011-01, Vol.71 (1), p.96
issn 0718-5820
0718-5839
language eng ; spa
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source Publicly Available Content Database; SciELO
subjects Biomass
Cattle
Experiments
Grasslands
Herbivores
Legumes
Pastures
Precipitation
Productivity
Seeds
Studies
Summer
title Lotus tenuis seedling establishment and biomass production in Flooding Pa mpa grasslands (Buenos Aires, Argentina)
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